bipolar stainless steel recording electrodes outside diameter Search Results


bipolar, coated, stainless-steel electrodes in diameter  (Bilaney Consultants)
90
Bilaney Consultants bipolar, coated, stainless-steel electrodes in diameter
Bipolar, Coated, Stainless Steel Electrodes In Diameter, supplied by Bilaney Consultants, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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stainless steel bipolar recording electrode  (Protech Technology Enterprise)
90
Protech Technology Enterprise stainless steel bipolar recording electrode
Stainless Steel Bipolar Recording Electrode, supplied by Protech Technology Enterprise, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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stainless steel bipolar recording electrode - by Bioz Stars, 2026-04
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bipolar stimulation electrode 60-μm-diameter twisted stainless steel  (PlasticsOne inc)
90
PlasticsOne inc bipolar stimulation electrode 60-μm-diameter twisted stainless steel
( A ) Sketch of experimental setup for simultaneous patterned optogenetic <t>stimulation</t> and single-unit recording in AC and for intrinsic imaging. ( B ) AC window showing the location of a stimulation spot along the tonotopic axis of the primary auditory field (A1) with 64-channel silicon probe inserted via a hole in the coverglass (top right) to record single-unit responses to light patterns and illustrative data from three channels. ( C ) Responses of four AC neurons to different optogenetic stimulation patterns illustrating how spatiotemporal and spatial codes are extracted. ( D ) Sketch of the temporal modulation patterns applied to a single spot on the AC. ( E and F ) Z -scored responses of 344 single units to the 15 Hz high rate versus and 4 Hz high rate (E) and 15 Hz high rate versus 4 Hz low rate stimulations (F) ordered by preference for 15-Hz versus 4-Hz stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( G ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units). ( H ) Sketch of the relative timing patterns applied to two spots A and B and the purely spatial pattern applied to either A or B. ( I and J ) Z -scored responses of 344 single units to A, B stimulations (I) and AB, BA stimulations (J), ordered by preference for A versus B stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( K ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units).
Bipolar Stimulation Electrode 60 μm Diameter Twisted Stainless Steel, supplied by PlasticsOne inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 90 stars, based on 1 article reviews
bipolar stimulation electrode 60-μm-diameter twisted stainless steel - by Bioz Stars, 2026-04
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stimulating electrode bipolar, parallel, stainless-steel, 0.2mm diameter/tip  (PlasticsOne inc)
90
PlasticsOne inc stimulating electrode bipolar, parallel, stainless-steel, 0.2mm diameter/tip
( A ) Sketch of experimental setup for simultaneous patterned optogenetic <t>stimulation</t> and single-unit recording in AC and for intrinsic imaging. ( B ) AC window showing the location of a stimulation spot along the tonotopic axis of the primary auditory field (A1) with 64-channel silicon probe inserted via a hole in the coverglass (top right) to record single-unit responses to light patterns and illustrative data from three channels. ( C ) Responses of four AC neurons to different optogenetic stimulation patterns illustrating how spatiotemporal and spatial codes are extracted. ( D ) Sketch of the temporal modulation patterns applied to a single spot on the AC. ( E and F ) Z -scored responses of 344 single units to the 15 Hz high rate versus and 4 Hz high rate (E) and 15 Hz high rate versus 4 Hz low rate stimulations (F) ordered by preference for 15-Hz versus 4-Hz stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( G ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units). ( H ) Sketch of the relative timing patterns applied to two spots A and B and the purely spatial pattern applied to either A or B. ( I and J ) Z -scored responses of 344 single units to A, B stimulations (I) and AB, BA stimulations (J), ordered by preference for A versus B stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( K ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units).
Stimulating Electrode Bipolar, Parallel, Stainless Steel, 0.2mm Diameter/Tip, supplied by PlasticsOne inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/stimulating electrode bipolar, parallel, stainless-steel, 0.2mm diameter/tip/product/PlasticsOne inc
Average 90 stars, based on 1 article reviews
stimulating electrode bipolar, parallel, stainless-steel, 0.2mm diameter/tip - by Bioz Stars, 2026-04
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stainless-steel bipolar electrode plasticsone, roanoke, va, usa, diameter, insulated except at the ventral tip  (PlasticsOne inc)
90
PlasticsOne inc stainless-steel bipolar electrode plasticsone, roanoke, va, usa, diameter, insulated except at the ventral tip
( A ) Sketch of experimental setup for simultaneous patterned optogenetic <t>stimulation</t> and single-unit recording in AC and for intrinsic imaging. ( B ) AC window showing the location of a stimulation spot along the tonotopic axis of the primary auditory field (A1) with 64-channel silicon probe inserted via a hole in the coverglass (top right) to record single-unit responses to light patterns and illustrative data from three channels. ( C ) Responses of four AC neurons to different optogenetic stimulation patterns illustrating how spatiotemporal and spatial codes are extracted. ( D ) Sketch of the temporal modulation patterns applied to a single spot on the AC. ( E and F ) Z -scored responses of 344 single units to the 15 Hz high rate versus and 4 Hz high rate (E) and 15 Hz high rate versus 4 Hz low rate stimulations (F) ordered by preference for 15-Hz versus 4-Hz stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( G ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units). ( H ) Sketch of the relative timing patterns applied to two spots A and B and the purely spatial pattern applied to either A or B. ( I and J ) Z -scored responses of 344 single units to A, B stimulations (I) and AB, BA stimulations (J), ordered by preference for A versus B stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( K ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units).
Stainless Steel Bipolar Electrode Plasticsone, Roanoke, Va, Usa, Diameter, Insulated Except At The Ventral Tip, supplied by PlasticsOne inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/stainless-steel bipolar electrode plasticsone, roanoke, va, usa, diameter, insulated except at the ventral tip/product/PlasticsOne inc
Average 90 stars, based on 1 article reviews
stainless-steel bipolar electrode plasticsone, roanoke, va, usa, diameter, insulated except at the ventral tip - by Bioz Stars, 2026-04
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twisted bipolar electrode (0.127mm diameter stainless steel 2-channel electrode  (PlasticsOne inc)
90
PlasticsOne inc twisted bipolar electrode (0.127mm diameter stainless steel 2-channel electrode
( A ) Sketch of experimental setup for simultaneous patterned optogenetic <t>stimulation</t> and single-unit recording in AC and for intrinsic imaging. ( B ) AC window showing the location of a stimulation spot along the tonotopic axis of the primary auditory field (A1) with 64-channel silicon probe inserted via a hole in the coverglass (top right) to record single-unit responses to light patterns and illustrative data from three channels. ( C ) Responses of four AC neurons to different optogenetic stimulation patterns illustrating how spatiotemporal and spatial codes are extracted. ( D ) Sketch of the temporal modulation patterns applied to a single spot on the AC. ( E and F ) Z -scored responses of 344 single units to the 15 Hz high rate versus and 4 Hz high rate (E) and 15 Hz high rate versus 4 Hz low rate stimulations (F) ordered by preference for 15-Hz versus 4-Hz stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( G ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units). ( H ) Sketch of the relative timing patterns applied to two spots A and B and the purely spatial pattern applied to either A or B. ( I and J ) Z -scored responses of 344 single units to A, B stimulations (I) and AB, BA stimulations (J), ordered by preference for A versus B stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( K ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units).
Twisted Bipolar Electrode (0.127mm Diameter Stainless Steel 2 Channel Electrode, supplied by PlasticsOne inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/twisted bipolar electrode (0.127mm diameter stainless steel 2-channel electrode/product/PlasticsOne inc
Average 90 stars, based on 1 article reviews
twisted bipolar electrode (0.127mm diameter stainless steel 2-channel electrode - by Bioz Stars, 2026-04
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bipolar stainless steel recording electrodes outside diameter  (Wacker Chemie)
90
Wacker Chemie bipolar stainless steel recording electrodes outside diameter
( A ) Sketch of experimental setup for simultaneous patterned optogenetic <t>stimulation</t> and single-unit recording in AC and for intrinsic imaging. ( B ) AC window showing the location of a stimulation spot along the tonotopic axis of the primary auditory field (A1) with 64-channel silicon probe inserted via a hole in the coverglass (top right) to record single-unit responses to light patterns and illustrative data from three channels. ( C ) Responses of four AC neurons to different optogenetic stimulation patterns illustrating how spatiotemporal and spatial codes are extracted. ( D ) Sketch of the temporal modulation patterns applied to a single spot on the AC. ( E and F ) Z -scored responses of 344 single units to the 15 Hz high rate versus and 4 Hz high rate (E) and 15 Hz high rate versus 4 Hz low rate stimulations (F) ordered by preference for 15-Hz versus 4-Hz stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( G ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units). ( H ) Sketch of the relative timing patterns applied to two spots A and B and the purely spatial pattern applied to either A or B. ( I and J ) Z -scored responses of 344 single units to A, B stimulations (I) and AB, BA stimulations (J), ordered by preference for A versus B stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( K ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units).
Bipolar Stainless Steel Recording Electrodes Outside Diameter, supplied by Wacker Chemie, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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bipolar stainless steel recording electrodes outside diameter - by Bioz Stars, 2026-04
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bipolar stainless steel electrode 0.005 in. diameter  (A-M Systems)
90
A-M Systems bipolar stainless steel electrode 0.005 in. diameter
( A ) Sketch of experimental setup for simultaneous patterned optogenetic <t>stimulation</t> and single-unit recording in AC and for intrinsic imaging. ( B ) AC window showing the location of a stimulation spot along the tonotopic axis of the primary auditory field (A1) with 64-channel silicon probe inserted via a hole in the coverglass (top right) to record single-unit responses to light patterns and illustrative data from three channels. ( C ) Responses of four AC neurons to different optogenetic stimulation patterns illustrating how spatiotemporal and spatial codes are extracted. ( D ) Sketch of the temporal modulation patterns applied to a single spot on the AC. ( E and F ) Z -scored responses of 344 single units to the 15 Hz high rate versus and 4 Hz high rate (E) and 15 Hz high rate versus 4 Hz low rate stimulations (F) ordered by preference for 15-Hz versus 4-Hz stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( G ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units). ( H ) Sketch of the relative timing patterns applied to two spots A and B and the purely spatial pattern applied to either A or B. ( I and J ) Z -scored responses of 344 single units to A, B stimulations (I) and AB, BA stimulations (J), ordered by preference for A versus B stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( K ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units).
Bipolar Stainless Steel Electrode 0.005 In. Diameter, supplied by A-M Systems, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/bipolar stainless steel electrode 0.005 in. diameter/product/A-M Systems
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bipolar stainless steel electrode 0.005 in. diameter - by Bioz Stars, 2026-04
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bipolar stainless steel wire electrode 0.008 in. bare diameter  (A-M Systems)
90
A-M Systems bipolar stainless steel wire electrode 0.008 in. bare diameter
( A ) Sketch of experimental setup for simultaneous patterned optogenetic <t>stimulation</t> and single-unit recording in AC and for intrinsic imaging. ( B ) AC window showing the location of a stimulation spot along the tonotopic axis of the primary auditory field (A1) with 64-channel silicon probe inserted via a hole in the coverglass (top right) to record single-unit responses to light patterns and illustrative data from three channels. ( C ) Responses of four AC neurons to different optogenetic stimulation patterns illustrating how spatiotemporal and spatial codes are extracted. ( D ) Sketch of the temporal modulation patterns applied to a single spot on the AC. ( E and F ) Z -scored responses of 344 single units to the 15 Hz high rate versus and 4 Hz high rate (E) and 15 Hz high rate versus 4 Hz low rate stimulations (F) ordered by preference for 15-Hz versus 4-Hz stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( G ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units). ( H ) Sketch of the relative timing patterns applied to two spots A and B and the purely spatial pattern applied to either A or B. ( I and J ) Z -scored responses of 344 single units to A, B stimulations (I) and AB, BA stimulations (J), ordered by preference for A versus B stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( K ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units).
Bipolar Stainless Steel Wire Electrode 0.008 In. Bare Diameter, supplied by A-M Systems, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/bipolar stainless steel wire electrode 0.008 in. bare diameter/product/A-M Systems
Average 90 stars, based on 1 article reviews
bipolar stainless steel wire electrode 0.008 in. bare diameter - by Bioz Stars, 2026-04
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bipolar concentric-stimulating electrodes stainless steel 125 lm in diameter  (David Kopf Instruments)
90
David Kopf Instruments bipolar concentric-stimulating electrodes stainless steel 125 lm in diameter
( A ) Sketch of experimental setup for simultaneous patterned optogenetic <t>stimulation</t> and single-unit recording in AC and for intrinsic imaging. ( B ) AC window showing the location of a stimulation spot along the tonotopic axis of the primary auditory field (A1) with 64-channel silicon probe inserted via a hole in the coverglass (top right) to record single-unit responses to light patterns and illustrative data from three channels. ( C ) Responses of four AC neurons to different optogenetic stimulation patterns illustrating how spatiotemporal and spatial codes are extracted. ( D ) Sketch of the temporal modulation patterns applied to a single spot on the AC. ( E and F ) Z -scored responses of 344 single units to the 15 Hz high rate versus and 4 Hz high rate (E) and 15 Hz high rate versus 4 Hz low rate stimulations (F) ordered by preference for 15-Hz versus 4-Hz stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( G ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units). ( H ) Sketch of the relative timing patterns applied to two spots A and B and the purely spatial pattern applied to either A or B. ( I and J ) Z -scored responses of 344 single units to A, B stimulations (I) and AB, BA stimulations (J), ordered by preference for A versus B stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( K ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units).
Bipolar Concentric Stimulating Electrodes Stainless Steel 125 Lm In Diameter, supplied by David Kopf Instruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/bipolar concentric-stimulating electrodes stainless steel 125 lm in diameter/product/David Kopf Instruments
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bipolar concentric-stimulating electrodes stainless steel 125 lm in diameter - by Bioz Stars, 2026-04
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bipolar stainless steel electrodes diameter  (Plastic Products Inc)
90
Plastic Products Inc bipolar stainless steel electrodes diameter
( A ) Sketch of experimental setup for simultaneous patterned optogenetic <t>stimulation</t> and single-unit recording in AC and for intrinsic imaging. ( B ) AC window showing the location of a stimulation spot along the tonotopic axis of the primary auditory field (A1) with 64-channel silicon probe inserted via a hole in the coverglass (top right) to record single-unit responses to light patterns and illustrative data from three channels. ( C ) Responses of four AC neurons to different optogenetic stimulation patterns illustrating how spatiotemporal and spatial codes are extracted. ( D ) Sketch of the temporal modulation patterns applied to a single spot on the AC. ( E and F ) Z -scored responses of 344 single units to the 15 Hz high rate versus and 4 Hz high rate (E) and 15 Hz high rate versus 4 Hz low rate stimulations (F) ordered by preference for 15-Hz versus 4-Hz stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( G ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units). ( H ) Sketch of the relative timing patterns applied to two spots A and B and the purely spatial pattern applied to either A or B. ( I and J ) Z -scored responses of 344 single units to A, B stimulations (I) and AB, BA stimulations (J), ordered by preference for A versus B stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( K ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units).
Bipolar Stainless Steel Electrodes Diameter, supplied by Plastic Products Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/bipolar stainless steel electrodes diameter/product/Plastic Products Inc
Average 90 stars, based on 1 article reviews
bipolar stainless steel electrodes diameter - by Bioz Stars, 2026-04
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stainless steel, teflon-coated bipolar renal nerve recording electrode  (A-M Systems)
90
A-M Systems stainless steel, teflon-coated bipolar renal nerve recording electrode
( A ) Sketch of experimental setup for simultaneous patterned optogenetic <t>stimulation</t> and single-unit recording in AC and for intrinsic imaging. ( B ) AC window showing the location of a stimulation spot along the tonotopic axis of the primary auditory field (A1) with 64-channel silicon probe inserted via a hole in the coverglass (top right) to record single-unit responses to light patterns and illustrative data from three channels. ( C ) Responses of four AC neurons to different optogenetic stimulation patterns illustrating how spatiotemporal and spatial codes are extracted. ( D ) Sketch of the temporal modulation patterns applied to a single spot on the AC. ( E and F ) Z -scored responses of 344 single units to the 15 Hz high rate versus and 4 Hz high rate (E) and 15 Hz high rate versus 4 Hz low rate stimulations (F) ordered by preference for 15-Hz versus 4-Hz stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( G ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units). ( H ) Sketch of the relative timing patterns applied to two spots A and B and the purely spatial pattern applied to either A or B. ( I and J ) Z -scored responses of 344 single units to A, B stimulations (I) and AB, BA stimulations (J), ordered by preference for A versus B stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( K ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units).
Stainless Steel, Teflon Coated Bipolar Renal Nerve Recording Electrode, supplied by A-M Systems, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/stainless steel, teflon-coated bipolar renal nerve recording electrode/product/A-M Systems
Average 90 stars, based on 1 article reviews
stainless steel, teflon-coated bipolar renal nerve recording electrode - by Bioz Stars, 2026-04
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Image Search Results


( A ) Sketch of experimental setup for simultaneous patterned optogenetic stimulation and single-unit recording in AC and for intrinsic imaging. ( B ) AC window showing the location of a stimulation spot along the tonotopic axis of the primary auditory field (A1) with 64-channel silicon probe inserted via a hole in the coverglass (top right) to record single-unit responses to light patterns and illustrative data from three channels. ( C ) Responses of four AC neurons to different optogenetic stimulation patterns illustrating how spatiotemporal and spatial codes are extracted. ( D ) Sketch of the temporal modulation patterns applied to a single spot on the AC. ( E and F ) Z -scored responses of 344 single units to the 15 Hz high rate versus and 4 Hz high rate (E) and 15 Hz high rate versus 4 Hz low rate stimulations (F) ordered by preference for 15-Hz versus 4-Hz stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( G ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units). ( H ) Sketch of the relative timing patterns applied to two spots A and B and the purely spatial pattern applied to either A or B. ( I and J ) Z -scored responses of 344 single units to A, B stimulations (I) and AB, BA stimulations (J), ordered by preference for A versus B stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( K ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units).

Journal: Science Advances

Article Title: A spatial code for temporal information is necessary for efficient sensory learning

doi: 10.1126/sciadv.adr6214

Figure Lengend Snippet: ( A ) Sketch of experimental setup for simultaneous patterned optogenetic stimulation and single-unit recording in AC and for intrinsic imaging. ( B ) AC window showing the location of a stimulation spot along the tonotopic axis of the primary auditory field (A1) with 64-channel silicon probe inserted via a hole in the coverglass (top right) to record single-unit responses to light patterns and illustrative data from three channels. ( C ) Responses of four AC neurons to different optogenetic stimulation patterns illustrating how spatiotemporal and spatial codes are extracted. ( D ) Sketch of the temporal modulation patterns applied to a single spot on the AC. ( E and F ) Z -scored responses of 344 single units to the 15 Hz high rate versus and 4 Hz high rate (E) and 15 Hz high rate versus 4 Hz low rate stimulations (F) ordered by preference for 15-Hz versus 4-Hz stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( G ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units). ( H ) Sketch of the relative timing patterns applied to two spots A and B and the purely spatial pattern applied to either A or B. ( I and J ) Z -scored responses of 344 single units to A, B stimulations (I) and AB, BA stimulations (J), ordered by preference for A versus B stimulation. Right: Difference in each neuron’s average firing rate between stimulations. ( K ) Accuracy of a neural decoder trained to discriminate between the optogenetic patterns based only on spatial information or with spatiotemporal information ( n = 344 units, bootstrap over units).

Article Snippet: For MFB stimulation, a bipolar stimulation electrode (60-μm-diameter twisted stainless steel, PlasticsOne) was implanted using stereotaxic coordinates (antero-posterior−1.4, medio-lateral +1.2, dorso-ventral +4.8).

Techniques: Single-unit Recording, Imaging

( A ) Sketch of experimental setup for behavioral discrimination of patterned optogenetic stimulation in AC and cranial window from an example mouse showing the location of the stimulation spots in the tonotopic axis of the primary auditory field. ( B ) Sample lick traces (top) and mean lick signal (bottom) for Go and NoGo trials in the task with temporal modulation and firing rate cues that the mouse successfully learnt (left) and in the task with temporal modulation cues only in which the mouse failed to discriminate (right). ( C ) Learning curves for an example mouse performing the two tasks with temporal modulation. ( D ) Learning curves for all mice performing the tasks with temporal modulation ( n = 7, error bars are SEM). ( E ) Accuracy at 2500 trials for all mice (paired Wilcoxon test, P = 0.031, signed rank value = 21, n = 6). ( F ) Learning curves for an example mouse performing the relative temporal order task and the spatial pattern task. ( G ) Learning curves for all mice performing each task ( n = 7, error bars are SEM). ( H ) Accuracy at 2500 trials for all mice (paired Wilcoxon test, P = 0.032, signed rank value = 27, n = 7).

Journal: Science Advances

Article Title: A spatial code for temporal information is necessary for efficient sensory learning

doi: 10.1126/sciadv.adr6214

Figure Lengend Snippet: ( A ) Sketch of experimental setup for behavioral discrimination of patterned optogenetic stimulation in AC and cranial window from an example mouse showing the location of the stimulation spots in the tonotopic axis of the primary auditory field. ( B ) Sample lick traces (top) and mean lick signal (bottom) for Go and NoGo trials in the task with temporal modulation and firing rate cues that the mouse successfully learnt (left) and in the task with temporal modulation cues only in which the mouse failed to discriminate (right). ( C ) Learning curves for an example mouse performing the two tasks with temporal modulation. ( D ) Learning curves for all mice performing the tasks with temporal modulation ( n = 7, error bars are SEM). ( E ) Accuracy at 2500 trials for all mice (paired Wilcoxon test, P = 0.031, signed rank value = 21, n = 6). ( F ) Learning curves for an example mouse performing the relative temporal order task and the spatial pattern task. ( G ) Learning curves for all mice performing each task ( n = 7, error bars are SEM). ( H ) Accuracy at 2500 trials for all mice (paired Wilcoxon test, P = 0.032, signed rank value = 27, n = 7).

Article Snippet: For MFB stimulation, a bipolar stimulation electrode (60-μm-diameter twisted stainless steel, PlasticsOne) was implanted using stereotaxic coordinates (antero-posterior−1.4, medio-lateral +1.2, dorso-ventral +4.8).

Techniques: